Dredger actuated from land

ABSTRACT

Drag dredger, for the extraction and cleaning of sediments in bays, port accesses, navigable channels, docks, watercourses, lakes or reservoirs, equipped with means for excavation, dragging and removal of bottom and means to regulate and support, with a driving force that is made from land, which facilitates the extraction of sediments directly onto land and immediately leaves a flat surface on the sea-bed. This is done by regulating the excavation means as well as the cutting depth very closely and all of this in less time and cost. The above is characterized because it is made up of a frame, equipped with a drag scoop ( 1 ) that can be moved vertically through the use of a hydraulic or mechanical mechanism ( 6 ), to regulate cutting (drag cutting angle), and also has longitudinal ( 2 ) cross beams ( 3 ) which show crow-foot chains ( 8 ) for the dragging of the dredger. In addition, coupled to the frame are at least four watertight runner systems or means ( 4 ), to be dragged with a at a cutting angle from a lower blade ( 9 ) located on the lower perimeter edge of the scoop ( 1 ), these watertight runners ( 4 ) are what prevent it from sinking to the bottom or sinking into the material to be extracted.

FIELD OF APPLICATION

The invention refers to a dredge for the extraction and cleaning of sediments in bays, port accesses, navigable channels, docks, streams, lakes or reservoirs, equipped with the means for excavation, dragging, bottom removal and the means to regulate and support, with a driving force (of such dredger), that is actuated from land and not from a ship on the sea surface (water), which usually occurs with existing dredgers according to the state of the art.

Dredgers are the machines or ships used for dredge operations. Dredging is the operation of excavating and cleaning sediments in waterways, lakes, bays, port accesses, etc, to increase the tonnage of vessels and their load capacity. The depth of a navigable cannel or river determines the size of the vessels that can navigate them.

Rivers and tides drag sediments that are deposited at the bottom and calmer bays or waterways where the ports are built, decreasing their depth and therefore the tonnage of the vessels that access them. In order to improve the capacity of water transportation, when ports are embarked they must be dredged to increase or recover their original capacity. On the other hand, increasing the draft in these areas not only facilitates maritime traffic but it also decreases risk for the vessels, avoiding grounding.

Different types of dredges are used depending on the material at the bottom to be dredged.

Dredging operations have a significant potential environmental impact: at least the substantial alteration of the bottom and the mud removed generates too many suspended solids which affects a large radius surrounding the site. These environmental impacts should be evaluated properly and in a timely manner so as to consider the possible means of mitigating them.

Among different types of dredgers, the following are included:

a) Clamshell Dredgers.

These operate using a mobile arm that extracts material from the bottom.

b) Bucket Dredgers:

Small buckets extract the sediments, c) Hydraulic suction dredgers:

These are used on soft land and are generally coupled to floating tubing through which the material is moved to the shore.

With regards to the state of the art for dredgers in general, we can cite patent ES 471,035, which refers to a dredger that has a floating body, an arm that extends forward and at its front end it has a dispersing tool, with such mounted arm pivoting at its back end over the floating body, with the purpose of being able to adopt an operating position that is more or less submerged and with an upward resting position, including means of suspending the arm to regulate its position, where the arm is equipped in two sections, the first being mounted as pivoting on its back end around a horizontal axle over the front end of this first section of the arm, while the second section of the arm is mounted to be mobile on that platform, characterized because, on one hand, there are means provided to keep the platform horizontal and on the other hand, the mobile assembly of the second part of the arm on such platform consists of a pivoting assembly around a vertical axle.

Another patent invention, is ES 2,099,244, which refers to a dredger which is equipped with at least one tube (5) adjusted at a random angle, which has a scarifier belt (6) for the excavation of deposits and other light sediments, characterized because the scarifier belt (6) extends to the lowest part of the tube (5), the part of which comes out of the tube (5) and ends in a scarifier blade (9″) so that the deposits and other light sediments may be transported along such tube (5).

Technical Problems Solved by the Invention

In order to reduce operating costs a large part of the site and specifically most of the driving force to operate the dredger is installed on land and not at sea (water) as is usually done in current dredgers in the state of the art.

To improve the ability to regulate the penetration of the shovel that corresponds to the dredger that is the object of the invention, it is equipped with wide skids so that they do not sink in soft material, and with a regulating mechanism allow a larger or smaller angle of attacking the sediments at the bottom.

The skids are also equipped with air chambers similar to those of submarines, which allow to provide an exact setting of the pressure desired on the sediments.

These air chambers also allow that only a minimum amount of driving force is used to move the dredger shovel, without sediments, either when moving backward or when transporting.

To alleviate suspended solids, which produce a large impact on the macro and microscopic wildlife in a wide radius around the site, increased by current and/or tide effects, a suction pump is added over the shovel.

DESCRIPTION OF FIGURES

To better understand the make up and technical characteristics of the dredger which is the object of this invention, we will describe the images that form an integral part of this invention, without implying any obvious limitations or modifications that may arise, where:

FIG. 1 shows an isometric view of the dredge of this invention.

FIG. 2 shows a side view of the dredge of this invention.

FIG. 3 shows a front view of the dredge of this invention.

FIG. 4 shows a top view of the dredge of this invention.

DESCRIPTION OF INVENTION

In consideration of FIGS. 1 to 4, the invention for a dredger with a drag system for sediments or similar, is equipped with a backhoe (1) with vertical movement, using a hydraulic or mechanic mechanism (6), to regulate the cutting (angle of drag), has been created for sweeping or dragging and extracting material under water or dredging. This backhoe (1) is actuated (or dragged) by two winches anchored by chains (not illustrated) at a distance that is adequate for the surface to dredge; they are connected to a crow's feet-type chain (8) that the dredger takes from some long beams (2) corresponding to the frame of the dredge, which has at least four watertight systems or skids coupled to it (4), to be dragged with an angle of attack from a bottom blade (9) located in the lower perimeter edge of the dredge, as a means to not sink to the bottom or into the material to be extracted. Since the sediment material to be extracted can be soft, the wide surface of the skids (4) covers a large contact area so that they do not sink. Since these skids (4) are watertight they can be flooded inside to make them more ballast or emptied, so they have buoyancy and helps to lighten the weight from the entire structure or frame of the dredger, said frame has the characteristic that its frame is removable for transportation, which is why part of its beams (2) are bolted. Over the structure there is a graduated scale used to control dredging progress, when the requested depth is less tan six meters. There is a winch mounted on roller beams to be moved according to progress, by an excavating machine and is positioned through topography to maintain a line of dredging, becomes firm on an anchoring port on the beach. There is another winch (not illustrated) in the off-shore vessel, which is anchored and is responsible for returning the shovel (1) to the starting point of removing the material, this winch does not need much power but more speed to position the dredge to its starting point. This is because there is no material being cut, or the steel blade (9) which removes weight or provides buoyancy through compressed air tanks.

The shovel as a whole (1) has a semi-cylindrical configuration with lateral walls (1 a), which allows it to turn material and drag it in a circular motion while it advances, in the lower perimeter area of the shovel (1), it is equipped with a hard steel blade (9), with bolted replacement claws for possible hard material that the blade (9) cannot remove, so that it cuts and advances accumulating the material in the shovel (1).

The frame of the dredge where the shovel (1) is mounted is made up of a general rectangular configurated body, equipped with two lateral longitudinal beams (2), with an “I” shaped cross configuration, for the longitudinal area and three cross beams with an “H” shaped configuration (3), which are each positioned at each end and a third beam (5) located behind the shovel (1) where there are supports that can be regulated, which help to avoid the shovel (1) from becoming deformed, all of this is fixed with bolts. It has a top arch (5 b) which serves to move the shovel (1) vertically. Right below this top arch (5 b) there is a vertical grooved support (6) where a pivoting axle is inserted which allows to regulate the cutting height of the shovel (1), and once regulated, is fixed with dowels or bolts.

The skids (4), are four prism support structures, located inside the vertices where the end longitudinal beams (2) and cross beams (3) join, these skids (4) prevent the shovel (1) from sinking in the substrate to be cracked, since by being watertight and of a specific volume, they have the capacity to be flooded or filled with air, which allows to regulate the weight of the dredger machine. This is achieved by inserting compressed air through a valve (not illustrated), which extracts the water by air-pressure injection which comes out through a second valve (not illustrated), then these valves are closed once the cutting depth has been regulated.

At the coast of the country dredging is often used at the seabed to increase draught for larger ships. Existing machines dredging the surface leave an uneven bottom and there is no way to remove material and leave an even bottom at the same time. Leaving an even bottom would require a very high additional cost.

Excavators are also used over barges, but it is a risky operation due to the stability of the pontoon (ship) and the dimensions of the excavation.

With this new dredger of this invention, it is easier to remove material directly from land and immediately leave a flat surface at the seabed, which is possible because it i sable to closely regulate the cutting depth since the height of the shovel can be regulated and doing all of this is less time and Money, in addition to generating less environmental impact.

DREDGER OUTLINE AND PARTS

-   -   1: drag shovel.     -   2: vertical beam.     -   3: crossbeam.     -   4: skids.     -   5: reinforcing beams.     -   6: shovel regulating support arch,     -   8: houndstooth chain.     -   9: blade. 

1. Dredger, for the extraction and cleaning of sediments in bays, port accesses, navigable channels, docks, large waterways, lakes or reservoirs, equipped with means for excavation, dragging and removal of bottom and means to regulate and support, with a driving force that is made from land and does not from a vessel on the water surface, which facilitates the extraction of sediments directly onto land and immediately leaves a flat surface on the sea-bed. This is done by regulating the excavation means as well as the very approximate cutting depth and all of this in less time and cost, in addition to generating low environmental impact, CHARACTERIZED because it is made up of a drag shovel (1) equipped with a blade in the lower perimeter or area of such shovel (1), with vertical movement with the use of a hydraulic or mechanical mechanism (6), to regulate cutting (drag cutting angle), and also has at least four watertight skid systems or means (4), to be dragged at a cutting angle from a lower blade (9), these watertight skids (4) allow that the dredger does not sink to the bottom or in the material to be extracted, in addition the wide surface of the skids (4) that cover a large contact area, will also prevent this.
 2. Dredger, for the extraction and cleaning of sediments, according to claim 1, CHARACTERIZED because the skids (4) being watertight can be flooded inside to make them more ballast or emptied to have buoyancy and help lighten the weight of the entire structure or dredge frame.
 3. Dredger, for the extraction and cleaning of sediments, according to claim 1, CHARACTERIZED because over the frame there is a graduate scale used to control the advancement of the dredger, when the requested depth is less than six meters.
 4. Dredger, for the extraction and cleaning of sediments, according to claim 1, CHARACTERIZED because the shovel (1) has a semi-cylindrical longitudinal configuration with lateral walls (1 a), which allows it to turn the material and drag it in a circular motion while advancing, in the lower perimeter area of the shovel (1), which a hard steel blade (9), that has a type of replacement claw for any possible hard material that the blade (9) cannot remove, so it breaks and advances, accumulating the material in the shovel (1).
 5. Dredger, for the extraction and cleaning of sediments, according to claim 1, CHARACTERIZED because the dredger frame where the shovel (1) is mounted is equipped with a crossbeam (5) located behind the shovel (1) where there are regulated supports, which help to prevent the deformation of the shovels (1), all of this is fixed with bolts, and also has a top arch (5 b) which serves to move the shovel (1) vertically and immediately below this top arch (5 b) it has vertically-shaped grooved supports (6) which allows to regulate the cutting height of the shovel (1), which once regulated is fixed with pins and bolts.
 6. Dredger, for the extraction and cleaning of sediments, according to claim 1, CHARACTERIZED because the skids (4), are four prism support structures, located inside the vertices where some end longitudinal beams (2) and crossbeams (3) are joined; these skids (4) have the capacity to be flooded or filled with air, which allows to regulate the weight of the dredge. This is done by inserting compressed air through a valve (not illustrated), which extracts the water through air pressure injection and comes out through a second valve (not illustrated), then these valves are closed once the operating depth has been regulated. 